RU2570493C2 - Anti-disconnecting device for anchor mechanism - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to anti-disconnection device (1) for the anchor mechanism (10) intended to interact with balance wheel (2) rotating around the first axle (D1). It contains assembled rotating wheel (5) rotating around the second axle (D2) of rotation, parallel to the above mentioned first axle (D1) and fixed relatively to the plate. The assembled rotating wheel (5) contains guide device (7) to interact with the coupled guide device (9) contained in the roller (3), that rotates together with the above mentioned balance wheel (2). The guide device (9) contains curvilinear surface (90) to move the said assembled rotating wheel (5) closer to the said first axle (D1), when the said balance wheel rotates in the first direction (B1), and to move the said assembled rotating wheel from said first axle when the balance wheel rotates in second direction (B2) opposite to the first direction (B1). The guide device (7) contains fixed pin to interact with said curvilinear surface. The invention relates also to the anchor mechanism, mechanism of clock and to clock.

EFFECT: reliability and easy operation.

17 cl, 7 dwg

Description

FIELD OF THE INVENTION

The present invention relates to an anti-disconnecting device for an anchor mechanism designed to interact with a balance pivoting around a first pivot axis, the position of which is stationary relative to platinum.

The invention also relates to an anchor mechanism, including at least one balance, which rotates relative to platinum and rotates around the axis of balance.

The invention also relates to a watch mechanism, including at least one such anchor mechanism.

The invention also relates to watches, including at least one clock mechanism and / or at least one anchor mechanism of this type.

The present invention relates to the field of watchmaking, in particular to anchor mechanisms, and more particularly, to the field of anchor mechanisms with a stopper.

State of the art

Anchor mechanisms with stoppers are considered the most accurate mechanisms and have been used for a long time in ship chronometers.

The effectiveness of anchor mechanisms with a stopper is higher than the efficiency of lever anchor mechanisms, since the anchor wheel transmits momentum to the balance only once for swinging, during which the anchor wheel rotates by one angular step. Accordingly, the loss of energy due to the inertia of the anchor wheel occurs once per swing compared to the loss once per vibration in linkage anchor mechanisms.

The use of anchor mechanisms with a stopper in a watch is more complicated because of the sensitivity of such anchor mechanisms to shock.

In the case of impacts, especially side impacts, if the balance must rotate outside of its normal amplitude, one tooth of the anchor wheel can exit the locking pallet, and unlocking and impulses occur twice during the same vibration. The effect of this phenomenon, called "separation", should lead to a violation of the isochronism of the oscillator.

In patent EP 1708047 in the name of MONTRES BREQUET SA, a lever is described that includes a shoulder containing both a first finger for interacting with a second drive finger and a sensing element with a protrusion interacting with a cam having a recess and similar to previous cams. When the balance and platinum are rotated in the first direction, the first finger drives the second finger to release the locking pallet (s) from the anchor wheel. The shoulder protrusion of the sensing element is actuated by the front side of the cam with a recess in order to reconnect the locking means to the anchor wheel. When the balance rotates in the opposite direction, the first finger actuates the second finger to hold the locking means in the connected position with the anchor wheel. Regardless of the direction in which the platinum rotates, the collision of the first and second fingers leads to a natural rotational force on the axis of the lever. This collision poses no risk of damage to the mechanism. The use of an elastic member or a locking pin is not necessary. In a private embodiment, this mechanism includes two adjacent locking pallets, including adjacent, but not aligned locking surfaces, which allows you to place the top of the tooth of the anchor wheel on the locking line at the junction of the locking surfaces, creating the effect of movement without the need for a locking pin . The locking surface of the locking pallet, which is closest to the anchor wheel, is located in front of the tooth and protects it from movement. In this position of complete locking of the tooth of the anchor wheel, the protrusion of the lever of the sensing element moves from the periphery of the roller, leaving the balance completely free to complete the first vibration. This design makes the anchor mechanism shockproof. In fact, the impact returns the protrusion to the periphery of the corresponding roller without releasing the locking pallets, since the tooth returns to the locking line immediately due to the movement effect. Later, when during the reverse movement of the balance in the opposite direction towards the end of the second vibration, the first finger and the second finger begin to interact, they create a torque in the stopper lever relative to its rotation axis, causing a slight tooth retraction until the fingers separate, and the finger returns to the stopper line in the result of the anti-movement effect.

Patent EP 1708046 in the name of MONTRES BREQUET SA describes a safety pin attached to the balance roller and designed to interact with the teeth of the anchor wheel and lock the wheel if the impulse pallet accidentally disengaged from the teeth of the wheel. This configuration prevents the anchor wheel from detaching in the event of an impact, leading to a reversal of the direction of rotation of the platinum at the exact moment of the wheel impulse. Collision of one tooth with this protective finger stops the wheel and returns the platinum to the corresponding direction of rotation.

In patent EP 1522001 in the name of Detra SA and Patek Philippe SA an anchor mechanism with locking parts and gears with gear clearances is proposed. The first wheel assembly is subjected to periodic torque applied, for example, to a rotor mounted in a stator. This first wheel assembly includes, on the one hand, in the main plane, the first wheel with gaps in the gears around the periphery and, on the other hand, in the second plane, the first brake lever, which includes several teeth and is capable of locking the switch lever, contained in the balance roller when the balance rotates in the first direction. Depending on its position, the first wheel assembly interacts with the second wheel assembly either with the first brake lever or with the first wheel. The second wheel assembly includes in the main plane a second wheel with gaps in the gearing and in the second plane a shaped part that includes several fingers and can lock the lever for turning off the balance roller in the second direction of rotation opposite to the first direction. The second wheel assembly further includes a locking portion in a first plane parallel to the previous planes. Depending on its position, the second wheel assembly interacts either with the locking part, or with the help of a second wheel with an anchor wheel, which includes a gear wheel in the main plane with gaps in the gearing and a pulse wheel in the first plane, which receives continuous mechanical torque, such as torque from a drum, similar to a conventional anchor wheel, and can interact with the impulse lever contained in the balance roller to maintain swing motion balance. Depending on the respective angular positions of the various wheels in the assembly, the locking parts or shaped parts or teeth interact with each other, so that the device has four stable locking positions for each rotation of the first axis, between which it has the same number of unlocked positions. The combination of two locking means and two unlocking means for mechanical torque and a special sequence of unlocking operations between the two locking operations prevent rapid movement or separation in the event of an impact on the mechanism. This mechanism is complex, relatively expensive and continues in several planes, which leads to significant thickness.

EP 1770452 in the name of Baumberger Peter describes the improvement of the American patent Voight No. 180 290 to minimize the need for space and describes a conventional anchor device with a stopper with a locking lever that rotates and returns to its original position using a coil spring. One shoulder of the lever contains one end of the belt spring, the other end of which rests and rests on the stop contained on the other shoulder of the lever, in order to interact with the unlocking pallet, combined with a small balance roller. The other arm of the lever behind the locking pallet includes a finger that interacts with the periphery of this small roller and, in particular, with the cut section forming the cam at a lower level than the level of the belt spring. The large balance roller contains an impulse pallet with a first recess in front of it and a subsequent second recess for unlocking the locking pallet when the unlocking pallet rotates the locking lever. The choice of a particular geometry both with respect to the position of the locking pallet and with respect to the impulse pallet in quasi-symmetry with a line at the centers of the anchor wheel and balance during the locking phase and the fork formed by the finger and the free end of the belt spring limit the destructive effect associated with the inertia of the stopper swings of balance. The amplitude of the rotational movements of the stopper in the event of an impact is limited by the interaction of the stopper pallet and the large roller. In an interconnected embodiment, this mechanism includes an anti-release lever next to the small roller, mounted to rotate when moving between two stable end positions supported by a spring on the stops, with which the first end can interact, and the second end of which in the form of a fork interacts with the unlocking by pallet: every time the unlocking pallet passes into the fork, it puts pressure on the top of the anti-disconnect lever from one stable position to the other stable position. Thus, the fork forms two stops for the small roller in case of any separation and prevents the balance from turning more than one revolution.

EP 1860511 to Christophe Claret SA describes a mechanism with a movable bridge that protects the anchor mechanism with a stopper from side impacts. This movable bridge contains a spring-loaded rotary axis of balance, a rotary axis of the anchor wheel, a rotary axis of the stopper and part of the gear transmission. It rotates elastically on the axis of one of the gear wheels, for example, on the axis of the second wheel. Efforts such as side impacts capable of unlocking the locking pallet set the entire movable bridge in motion, while maintaining the relative positions of the stopper and the anchor wheel. This ensures the continuous functioning of the anchor mechanism. The movable bridge can also be absorbed by a shock-absorbing system that dissipates part of the energy from the impact.

Patent application SN No. 700091 on behalf of Christophe Claret SA describes an anchor mechanism with a stopper with a locking lever mounted to rotate on a coil spring that cooperates at the other end with a first belt spring mounted near the axis of rotation. The balance roller includes two different unlocking pallets. The wheel assembly, located on the opposite side of the anchor wheel relative to the locking lever, contains a rotary cam holding the belt spring of the cam and returned to its original position with the coil spring in the stop position. This cam is designed for the cam belt spring to interact either in the first state with the end of the lever containing the belt spring, or in the second state with unlocking balance pallets.

The first unlocking pallet is designed to interact with the first belt spring and actuate the stopper when the first pallet collides with the first strip in the first direction, and to interact only with the first strip without actuating the stopper when it collides with the first strip in the opposite direction. When the cam is in the first state, it interacts with the stopper to limit movement.

The second unlocking pallet is designed to translate the cam into a second state in which the stopper can freely perform the unlocking operation and release the teeth of the anchor wheel from the lock pallet. Two unlocking pallets are adjacent and arranged so that the cam is brought into a second state before the stopper begins to perform an unlocking operation. The coiled cam return spring, which is stronger than the cam belt spring, tends to return the cam to the first state. Thus, in the first state, the cam is positioned so that it counteracts any accidental movement of the stopper, which could lead to the unintentional unlocking of the stopper pallet and reduce the sensitivity of the anchor mechanism to impact. The adjustment of this mechanism is difficult because it depends on the characteristics inherent in at least three springs

EP 2224292 in the name of Rolex SA describes a direct pulse anchor mechanism, in particular an anchor mechanism with a stopper. The locking lever is located in a certain way, turning between two stops. As for the anchor wheel, it includes a finger including a locking surface, used as a locking pallet, a protective surface, which, depending on the pivoting position of the lever, either prevents or does not interfere with the movement line of the anchor wheel, and the sliding surface, which forces the lever to tilt when the anchor wheel rotates, so as to return the sliding surface and thereby the locking surface to the obstruction zone of the anchor wheel in order to stop eniya turning the wheel above. The balance roller traditionally includes a pulse pallet and an unlocking finger. During vibration in the first direction of rotation of the balance, the lever is in the first stopped position, which allows the unlocking finger to pass, while during another vibration in the other direction of rotation, the lever is rotated to another stopping position and collides with the unlocking finger of the elastic unlocking element containing in the above lever. The elastic movement of the elastic unlocking element allows the balance to continue its movement, and the impulse pallet passes between two adjacent teeth of the anchor wheel. Soon after, the balance is stopped by the balance spring and rotated in the opposite direction. During elastic movement, the lever continues to abut and the locking surface of the lever slides along the tooth of the anchor wheel, which is held in a stopped position. The safety of this mechanism is ensured by the configuration of the lever finger with one locking surface and one sliding surface, which alternately meet with the movement line of the teeth of the anchor wheel. The length of the protective surface between the locking surface and the sliding surface corresponds to the angle of movement of the wheel to transfer drive energy to the balance in order to prevent premature return of the locking element to the line of movement of the wheel, which provides additional safety. Part of the energy of the drum is spent on friction during the slip phase.

Several patent documents specifically relate to anti-disconnect mechanisms.

Patent EP 1645918 in the name of MONTRES BREQUET SA describes a mechanism of this type including a finger attached to a balance arm. The balance bridge includes two columns between which this finger can pass. The locking shoulder is attached to the outer coil of the balance spring by clamping, and when the balance tends to move quickly under the influence of a shock and exceeds its normal amplitude, the shoulder can adjoin the columns and prevent the finger from passing.

Patent EP 1801668 in the name of MONTRES BREQUET SA describes a configuration of a balance axis equipped with a gear interacting with a gear sector that can stop between two stop positions and prevents the balance from turning outside its normal amplitude.

In short, known embodiments are often complex and difficult to adapt from one anchor mechanism to another. The way to stop the balance, in general, is very sharp and does not always provide movement upon restart without intervention.

SUMMARY OF THE INVENTION

The present invention proposes to eliminate the disadvantages of the existing prior art using a simple and reliable mechanism that can easily and without high costs be adapted to existing anchor mechanisms.

The invention relates to an anti-disconnecting device for an anchor mechanism designed to interact with a balance pivoting around a first pivot axis, the position of which is fixed relative to platinum; characterized in that the aforementioned device includes a rotary wheel assembly rotating around a second pivot axis parallel to the aforementioned first pivot axis in a fixed position relative to the aforementioned platinum; the aforementioned rotary wheel assembly includes a guide means for interacting with interconnected guide means contained in a roller attached to the aforementioned balance and rotated with it; and further characterized in that the aforementioned guiding means or, respectively, the aforementioned interconnected guiding means includes a curved surface for moving the aforementioned swivel wheel assembly closer to the aforementioned first pivot axis when the aforementioned balance pivots in the first pivot direction, and for moving the aforementioned pivoting the wheels assembly from the aforementioned first pivot axis when the aforementioned balance pivots in the second a direction of rotation opposite to the aforementioned first direction of rotation, while the aforementioned interconnected guiding means or, respectively, the aforementioned guiding means includes a fixed finger, designed to interact with the aforementioned curved surface.

According to a characteristic of the invention, the aforementioned curved surface is limited by a first restrictive stop near the axis of rotation of the component that contains the above curved surface, and a second limit stop located farther than the above first restrictive stop from the axis of rotation of the component that contains the above curved surface, so as to make the above balance motionless upon reaching the above first limit stop or the above second lim hitching.

According to another characteristic of the invention, the aforementioned interconnected guiding means includes a trajectory of a curved surface with a radius that increases in the radial direction, or a radius that increases with radially increasing passages around the aforementioned first axis of rotation, and the guiding means includes an axis forming a finger and intended to interact with the above trajectory of a curved surface.

The invention further includes an anchor mechanism including at least one balance pivoting relative to platinum and pivoting about a balance axis; characterized in that the mechanism is an anchor mechanism with a stopper, and in that it includes an anti-disconnecting device of this type; the above swivel wheel assembly is designed to rotate around a second axis of rotation parallel to the above first axis of rotation and stationary relative to the above platinum.

The invention also relates to a clock mechanism, including at least one such anchor mechanism.

The invention also relates to watches, including at least one clock mechanism and / or at least one anchor mechanism of this type.

Brief Description of the Drawings

Other characteristics and advantages of the invention will become clearer after studying the following detailed description with reference to the attached

drawings in which:

figure 1 is a perspective view of the anti-disconnecting device according to the invention in the initial position associated with the balance and platinum, which is not shown;

figure 2 is a schematic front view of the anti-disconnecting device of figure 1 in the same position;

figure 3 is a schematic front view of the anti-disconnecting device of figure 1 in the first position of the limit stop;

figure 4 is a schematic front view of the anti-disconnecting device of figure 1 in the second position of the limit stop opposite to the previous position;

5 is a schematic front view of a roller contained in an anti-disconnecting device according to the invention in another embodiment;

6 and 7 are a schematic partial top view of a configuration of a particular embodiment of a portion around a retaining surface relative to a balance roller and a rotary wheel assembly contained in an anti-disconnect device according to the invention.

Detailed Description of Preferred Embodiments

The present invention relates to the field of watchmaking.

The present invention relates to an anti-disconnecting device 1 for an anchor mechanism 10, designed to interact with the balance 2, which rotates around the first axis of rotation D1, which is stationary relative to the platinum.

According to the invention, the device 1 includes an assembled swivel wheel 5 that can rotate about a second rotation axis D2 parallel to the above first rotation axis D1 and whose position is stationary relative to the platinum.

This wheel assembly includes a guide means 7, which is designed to interact with the interconnected guide means 9 contained in the roller 3, designed to be attached to the balance 2 for rotation as an integral part thereof.

The guiding means 7 or correspondingly interconnected means 9 according to another embodiment includes a curved groove 90 for moving the rotary wheel 5 assembled closer to the first pivot axis D1 when the balance is rotated in the first direction B1, and for moving the rotary wheel 5 assembled from the first rotation axis D1, when the balance is rotated in the second direction B2, opposite to the first direction B1.

The interconnected guiding means 9 or, accordingly, guiding means 7 includes a fixed finger, designed to interact with a curved surface 90.

In the preferred embodiment shown in the figures and described in detail below, the curved surface 90 comprises a roller 3 attached to the balance 2. An opposite configuration is also possible.

The curved surface 90 is limited on both sides, namely, on the one hand, by the first restrictive stop 11 near the axis of rotation of the component, which contains the curved surface 90, and, on the other hand, by the second restrictive stop 12, located farther than the first limit stop from the component, which comprises a curved surface 90 so as to make the balance 2 stationary upon reaching the first limit stop 11 or the second limit stop 12.

In the position in which the balance 2 stops when the first limit stop 11 or the second limit stop 12 is reached, the tangent T to the mid-profile of the curved surface 90 in the first limit stop 11 and the second limit stop 12 passes through the second rotation axis D2 so as to block the rotation of the balance 2 about the rotation axis D1. In the embodiment shown in the figures, the guiding means 7 is an axle 71 of an assembled wheel that moves along a path 91 of a curved surface 90 defined by a groove in the roller 3.

Thus, the tangent T passes through the axis 4, which ensures the rotation of the rotary wheel 5 assembly around the axis D2 of rotation, as shown in figure 3 and 4.

This particular configuration means that the direction of the force vector that is affected by the balance when it reaches the stop on the axle 71 of the wheel assembly using one of the two limit stops 11 or 12 can pass through this axis and thus create zero torque on the swivel wheel 5 assembly, blocking the rotation of the balance 2, thereby preventing the additional rotation of the balance in the event of an impact.

Preferably, the interlocking guide means 9 includes a curved surface path 91 having a radius that increases in the radial direction, or a radius that increases with radially increasing passages around the first rotation axis D1, and the guide means 7 includes a finger axis 71 and designed to interact with the path 91 of the curved surface.

To minimize friction, the axis 71 can move with a radial clearance J in the path 91 of the curved surface. Tribological surface treatment on the path 91 of the curved surface and / or finger 71 can also advantageously reduce friction. In fact, the anti-disconnecting device is used only in the event of a shock and a quick movement of balance 2. In normal mode, i.e. in the initial position, in which the axis 71 occupies an intermediate position between the limit stops 11 and 12, as shown in FIGS. 1 and 2, the anti-disconnecting device 1 should consume the least possible amount of energy.

In a specific embodiment, as shown in FIGS. 1-4, curved surface 90 includes a path 91 of a curved surface in a spiral around a first rotation axis D1.

Advantageously, the dimensions and position of this spiral relative to the axis of rotation D2 are such that the straight line connecting the second axis of rotation D2 with the axis 72 contained in the guide means 7 is tangent to the middle profile of the spiral in any position of the guide means 7.

In another specific embodiment, as shown in FIG. 5, the curved surface 90 includes a path 91 of the curved surface, including several sections of rotation about the first axis of rotation D1, which are connected in pairs by a transition zone 13 and whose radius increases in radial direction. 5 shows two zones having respective radii R1 and R2. It is understood that when the axis 71 moves through these rotation sections about the rotation axis D1, it is not exposed to any radial stresses and the friction loss is minimal or even zero.

Advantageously, the swivel wheel 5 assembly includes a balancing zone 8, which is intended to balance the preferred dynamic, swivel wheel 5 assembly around the second rotation axis D2 to a maximum angular speed of rotation. This maximum angular velocity of rotation, at which the rotary wheel assembly is dynamically balanced around the second axis of rotation D2, is determined, on the one hand, by the angular velocity of balance 2 around the first axis of rotation D1 and, on the other hand, by the combination of the first constant arm of the lever formed by the distance between a second rotation axis D2 and an axis 72 contained in the guiding means 7, and a second variable lever arm formed by the distance between the first rotation axis D1 and the axis 72. In an alternative embodiment, 8 as determined by a simple balancing static balancing rotary wheels 5 assembly about the second axis of rotation D2.

Preferably, to ensure light weight, proper elasticity and ease of manufacture, the rotary wheel 5 assembly and / or roller 3 is made of micromechanically machinable material, silicon or quartz, or a compound or alloy obtained by MEMS technology, or an alloy obtained from using DRIE whether LIGA methods, or at least partially amorphous material. To increase the impact resistance, sections of the rotary wheel 5 assembly and the roller 3 subjected to impacts when the balance is moved quickly can be configured as shown in Figs. 6 and 7.

Thus, in the vicinity of both the first limit stop 11 and the second limit stop 12, the roller 3 of FIG. 6 has at least one chamber 14 defining at least one elastic partition 15 for absorbing tangential stress in the case of impact and thereby prevent damage to the corresponding structure, or has, as shown, many of these chambers, which may or may not have holes, in order to form partitions 15 designed to absorb tangential stress niya in case of impact.

7 shows the end of the shoulder 6 contained in the swivel wheel 5 assembly. This shoulder 6 is likewise provided with at least one chamber 14, forming at least one elastic partition 15, designed to absorb tangential stress in the event of an impact, or a plurality of such chambers 14, forming elastic partitions 15. In this figure, the axis 71 assembled wheels are fixedly mounted in a groove 73, which may include recesses obtained by preliminary machining to adapt to the position of the axis 71 according to the anchor mechanism to which the swivel wheel 5 is mounted e, depending on the roller 3.

In variants that are not shown in the figures, these elastic partitions can also be located near the center of the balancing spring or on the finger.

In an embodiment that is not shown in the figures, the rotary wheel 5 assembly includes a shoulder with a lever with two stable positions, each of the two stable positions being supported either through the interaction between the recess and an elastic return means, such as a spring, or through interaction between the first magnet and the second magnet or pallet made of magnetic material, such as mild steel and the like.

In another embodiment, the lever with two stable positions includes electrostatic means of return, such as an electret, in each of the two above stable positions.

The rotary wheel assembly may thus be located on the elastic axis of rotation and include an elastic strip with two stable positions, for example with two concave radii, to form two stable positions.

The invention also relates to an anchor mechanism 10 including at least one balance pivoting relative to platinum and pivoting about a balance axis D1. Preferably, this mechanism 10 is an anchor mechanism with a stopper and includes an anti-disconnecting device 1 according to the invention, wherein the rotary wheel 5 is mounted rotatably about a second axis of rotation D2, which is parallel to the first axis of rotation D1 and is stationary relative to the platinum.

In a specific embodiment, the roller 3 is made integrally with the balance 2.

In an advantageous embodiment of this anchor mechanism 10, the assembly formed by balance 2 and roller 3 is preferably whole and made of micromechanically machinable material, silicon or quartz, or a compound thereof or alloy obtained by MEMS technology, or an alloy obtained using Whether DRIE is LIGA methods, or at least from a partially amorphous material. This assembly can also be made integrally with the balancing spring, as described in patent EP 2104008 of the applicant.

The invention also relates to a clock mechanism, including at least one such anchor mechanism 10.

The invention also relates to watches, including at least a watch mechanism of this type and / or at least one anchor mechanism 10 of this type.

The invention also offers a reliable solution that can be easily implemented, and has the advantage of being used in any anchor model with a stopper due to minor changes in the fastening of the roller to the balancing axis and the fastening of the rotary wheel assembly to the platinum.

Claims (17)

1. The anti-disconnecting device (1) for the anchor mechanism (10), designed to interact with the balance (2), rotating around the first axis of rotation (D1), the position of which is stationary relative to the platinum, characterized in that
the above device (1) includes a rotary wheel (5) assembly, rotatable around a second axis of rotation (D2) parallel to the above first axis of rotation (D1) and in a stationary position relative to the above platinum, while the above rotary wheel (5) the assembly includes guide means (7); the aforementioned device (1) also includes a roller (3) intended for fastening to the aforementioned balance (2) and joint rotation, wherein the aforementioned roller (3) includes interlocking guide means (9) for interacting with the aforementioned guide means (7); wherein the above-mentioned guide means (7) or, respectively, the above-mentioned interconnected guide means (9) includes a curved surface (90) intended to move the aforementioned swivel wheel (5) closer to the aforementioned first pivot axis (D1) when the aforementioned balance pivots in the first pivot direction (B1), and to move the above pivoting wheel (5) assembly from the pivot first pivot axis (D1) when the above balance pivots in the second direction a rotation direction (B2) opposite to the aforementioned first direction of rotation (B1), while the aforementioned interconnected guiding means (9) or, respectively, the aforementioned guiding means (7) includes a fixed finger designed to interact with the aforementioned curved surface. 2. An anti-disconnecting device (1) according to claim 1, characterized in that the above curved surface (90) is limited by the first restrictive stop (11) near the axis of rotation of the component, which contains the above curved surface (90), and the second limit stop (12) which is farther than the above first restrictive stop from the axis of rotation of the component, which contains the above curved surface (90), so as to make the above balance (2) motionless when the above first ogre nichitelnogo stop (11) or above the second limiting stop (12). 3. The anti-disconnecting device (1) according to claim 2, characterized in that in the position in which the above balance (2) stops when the above first limit stop (11) or the above second limit stop (12) is reached, tangent (T) to the middle profile of the aforementioned curved surface (90) at the aforementioned first limit stop (11) and at the aforementioned second limit stop (12) passes through the axis of rotation of the component containing the above curved surface (90) so that block the rotation of the above balance (2) around the axis of rotation (D1). 4. An anti-disconnecting device (1) according to claim 1, characterized in that the aforementioned interconnected guiding means (9) includes a path (91) of a curved surface with a radius that increases in the radial direction, or with a radius that increases with radially increasing passages around the above first axis of rotation (D1), and the fact that the above guiding means (7) includes an axis (71) forming a finger and designed to interact with the above path (91) curved over awns. 5. The anti-disconnecting device (1) according to claim 4, characterized in that the above axis (71) can move with a radial clearance (J) in the above path (91) of the curved surface. 6. An anti-disconnecting device (1) according to claim 4, characterized in that the aforementioned curved surface (90) includes a trajectory (91) of the curved surface in a spiral around the aforementioned first axis of rotation (D1). 7. An anti-disconnecting device (1) according to claim 6, characterized in that the straight line connecting the above second axis of rotation (D2) with the axis (72) contained in the above guide means (7) is tangent to the middle profile of the above spiral in any position of the above guide means (7). 8. An anti-disconnecting device (1) according to claim 4, characterized in that the aforementioned curved surface (90) includes a trajectory (91) of the curved surface, which includes several annular sections of rotation around the above-mentioned first axis (D1) of rotation, which are connected in pairs using the transition zone (13) and the radius of which increases in the radial direction. 9. The anti-disconnecting device (1) according to claim 1, characterized in that the said rotary wheel (5) assembly includes a balancing zone (8), which is designed to dynamically balance the said rotary wheel (5) around the above second axis (D2) rotation to a maximum angular velocity of rotation determined, on the one hand, by the angular velocity of rotation of the above balance (2) around the above first axis (D1) of rotation and, on the other hand, a combination of the first constant arm of the lever, formed by the distance between the above second axis of rotation (D2) and the axis (72) contained in the above guide means (7), and the second variable lever arm formed by the distance between the above first axis of rotation (D1) and the above axis (72). 10. An anti-disconnecting device (1) according to claim 2, characterized in that the above roller (3) includes, in the vicinity of both the above first stop (11) and the above second stop (12), at least one chamber (14), forming at least one elastic partition (15), designed to absorb tangential stress in the event of an impact. 11. The anti-disconnecting device (1) according to claim 1, characterized in that the aforementioned swivel wheel (5) assembly includes in the vicinity of the aforementioned guide means (7) at least one chamber (14) forming at least , one elastic partition (15), designed to absorb shear stress in the event of an impact. 12. The anti-disconnecting device (1) according to claim 1, characterized in that the aforementioned swivel wheel (5) is assembled and / or the aforementioned roller (3) is made of silicon or quartz or their combination or at least partially amorphous material . 13. Anchor mechanism (10), including at least one balance (2), rotatable relative to the platinum and rotatable around the axis (D1) of the balance, characterized in that the mechanism is an anchor mechanism with a stopper and includes an anti-disconnecting device (1) according to claim 1, wherein the rotary wheel (5) assembly is designed to rotate about a second axis of rotation (D2) parallel to the above first axis of rotation (D1) and stationary relative to the above platinum. 14. Anchor mechanism (10) according to claim 13, characterized in that the above roller (3) is made in one piece with the above balance (2). 15. Anchor mechanism (10) according to claim 14, characterized in that the aforementioned assembly formed from the aforementioned balance (2) and the aforementioned roller (3) is made of silicon or quartz or a compound thereof, or at least partially amorphous material. 16. The clock mechanism, which includes at least one anchor mechanism according to item 13. 17. A clock including at least one clock mechanism according to clause 16 and / or at least one anchor mechanism according to clause 13.

Images